Add to ORKGNASA Lunar Sample Educational Set is a valuable source for planetary petrology education. Using the breccias of the Apollo expedition lunar samples we made cosmopetrographic comparisons between the lunar, the meteoritic, the terrestrial natural brecciated samples and the terrestrial artificial breccia-like ceramic ones. The meteoritic samples were studied from the NIPR Antarctic Meteorite Thin Section Set. From this comparative study the selected counterparts and their formation processes were also concluded
On July 24, 1969, the first extraterrestrial samples, with the exception of meteorites, were returne...
On July 24, 1969, the first extraterrestrial samples, with the exception of meteorites, were returne...
A number of similarities between lunar and meteoritic rocks are reported and suggest that the compar...
NASA Lunar Sample Educational Set is a valuable source for planetary petrology education. Using the ...
Lunar soils and breccia studies are used in studying the evolution of meteorite parent bodies. These...
The first step in a petrologic study must be a classification based on observed textures and mineral...
The principal known types of lunar rocks are briefly reviewed, and their chemical relationships disc...
Basic petrographic, chemical and age data for a representative suite of lunar breccias are presented...
During a 13 year period beginning in 1971, the Extraterrestrial Petrology Group examined lunar soils...
Lunar rocks may be classified into three major groups: (1) coarse-grained igneous rocks, (2) fine-gr...
Experimental and thermodynamic research on the pressure temperature limits of the stability of the m...
Basic petrographic, chemical, and age data is presented for a representative suite of igneous rocks ...
Lunar rocks may be classified into three major groups: (1) coarse-grained igneous rocks, (2) fine-gr...
Based on a synthesis of chemical data for over 200 samples, the nonmare rocks with fine grained melt...
Lunar soils and breccia studies are used in studying the evolution of meteorite parent bodies. These...
On July 24, 1969, the first extraterrestrial samples, with the exception of meteorites, were returne...
On July 24, 1969, the first extraterrestrial samples, with the exception of meteorites, were returne...
A number of similarities between lunar and meteoritic rocks are reported and suggest that the compar...
NASA Lunar Sample Educational Set is a valuable source for planetary petrology education. Using the ...
Lunar soils and breccia studies are used in studying the evolution of meteorite parent bodies. These...
The first step in a petrologic study must be a classification based on observed textures and mineral...
The principal known types of lunar rocks are briefly reviewed, and their chemical relationships disc...
Basic petrographic, chemical and age data for a representative suite of lunar breccias are presented...
During a 13 year period beginning in 1971, the Extraterrestrial Petrology Group examined lunar soils...
Lunar rocks may be classified into three major groups: (1) coarse-grained igneous rocks, (2) fine-gr...
Experimental and thermodynamic research on the pressure temperature limits of the stability of the m...
Basic petrographic, chemical, and age data is presented for a representative suite of igneous rocks ...
Lunar rocks may be classified into three major groups: (1) coarse-grained igneous rocks, (2) fine-gr...
Based on a synthesis of chemical data for over 200 samples, the nonmare rocks with fine grained melt...
Lunar soils and breccia studies are used in studying the evolution of meteorite parent bodies. These...
On July 24, 1969, the first extraterrestrial samples, with the exception of meteorites, were returne...
On July 24, 1969, the first extraterrestrial samples, with the exception of meteorites, were returne...
A number of similarities between lunar and meteoritic rocks are reported and suggest that the compar...